US1110826A - Vehicle-spring. - Google Patents

Description

P. L. ROUKLEDGE @L G. GILLESPIE. .VEHICLE SPRING. APPLICATlONFILEDSEPT.25,1911. 191 305.5%@ Patfmied Seps. 1,5, .191411 P. L. ROOKLEDGE da G. W. GILLESPIE.'

.Y-.BHlGLE SPRING. APPLmAToN Plum-SEPT.

Patented Sept. 15, 1914;

2 SHEETS-SHEET Z miesen L. RGOKLEDGE ANI) rires nannies onnieno GEQRGE W. GILLESPIE, OF CAMBRIA, CALIFORNL; SMD GILLESPIE ASSIGNOR TO SAID ROOKLEDGE.

vnnicnnsrnine.

Beit known that we, PERGIVAL L. Roonv Linien andGEoRon W. GiLLnsPiE, both citi- .ntate of California,

l Zens of the United States,

cation Serial No. 594,985,

residing at Cani Luis Obispo and have invented a new and useful Vehicle-Spring, of which the following is a specification. l

IThis application is designed to cover features of invention divided out of our appliled Novenibei' 30., 1910, and certain improvements thereof. An object of the invention is to provide a superior spring aii'ording gently yielding resilient support for heavy and light `loads alike;` the resistance of the spring inc-reas bria, in the county of San ing and decreasing as the burden oi the load increases and decreases.

A. further object is to provide a vehicle spring in which the amplitude of movement is limited by resilient means. to inake adjustabl'e the yliinits of unrestricted inofeinent, and to provide ineaiis whereby the resistancef oeredby the sprin@V at the close of `stay for the. usual parts oli' such. spring,

its `distortion vand recoil or or either, may be regulated.y Y. 1 Another obiect is to reduce the `liability oi silient element that at all tiin'es serves as a i Y and to provide ineans to obstruct such stay and pply its resilient force niore oi' less forciblivas desired under different workin@ requireinents and conditions. Y

TheA invention l,is applicable to various forms ofvehicles, but is more -particulary applicable as a shock absorber for antonio* the invention.

biles.,

The accompanying drawings 1illustrate Figure l isa side elevation partly in secl n l n c tion of the invention as including a lull yellipticspring and constructed in accord.

ancewith this invention and adapted for lSpecification of Letters Patent. Application led September 25, 1911.

'use inan automobile, `only partsof which i are shown. Dotted lines indicate a possible position of partsas the wheels of 4the automobile s uddenlyiise toward a 'heavily loadedautoniobile body not shown, in going over an obstruction. Fig. 2 is a, side elevation partly in section of the invention as applied in the forni in which a. hall elliptic spring supports an upper non-resilient b ody. Fig. 3 isja plan of the spring lever. Fig.. fl-

Patented Sept.. i5, 19Min serial No. 651,281.

is a view in which a three-fourths elliptic spring is employed and in which lthe chassis and the upper quarter elliptic spring constitute the equivalent of the upper half elliptic spring-shown in Fig. l. Fig. 5 is a plan of the device shown in F ig. 4. Fig-6 is a view orf another embodiment of the iii-.-

vention. Fig. 7 is a fragniental plan detail oiI parts shownin Fig.'6. Fig. S is a perspective view of `the duplex buniper detached.

ln the drawings like characters designate similar parts; indices being added to some of suoli characters to avoid confusion with `reference to parts' that are not wholly similar.

In F ig.l there is shown the combination with a half-elliptic spring l, of a lever spring 2 ulcruined to one end 3 of the halfelliptic spring and having a short arni d and a longl arin :3: the long arin being resilient: a shackle 6 connectingthe end oic the long aiin with the other end 7 oi` the half-elliptic spring: a supported body in the forni of a second' half-elliptic spring 8 connected at one end 4with the same end T of the half-elliptic spring 'l as the lever aiin 5 and a shackle 1.0 connecting the short arm il. of the lever spring with the' other end 1l of the second half-elliptic spring 8.

l2 represents asiipporting bod;v as an axle of the vehicle which is resiliently connected through the half-elliptic spring l and lever spring 2 and their' shackles with -a supported body which niay in soine instances be resilient and in` other instances be non-re silient.

In Fig. l the second half-elliptic spring 8 constitutes the resilient supported body, andit in turn supports the ciassis body 8. In Fig. 2 the supportedbody 8 is the chassis body of the vehicle.

In Fig. 'l the end l1 of the upper halfelliptic spring 8. is bent downwardly underneath the end of the arm 4 so that the shackle 10 niay swing beneath such arm.'

ln Fig. 2 the shackle l0 isswun'g from a supported body in the forni of a chassis S and is pivotally connected With the. shorl arm 4 of the lever sprinv.

All ofthe pivotal connections shown in either of the views are made by pins and roller bearings'l and the long resilient arm 5 is sufficiently limber to Contact with the supported body or a bumper 14. In some cases no bumper is provided and conse- "'quently'the limber arm b under heavyiloads way in such cases come into contact directly with the chassis body 8".

Thev shackle l6 may be connectedV with the end '7' of the halfeelliptic'spring;1, at a' va riable distance from the tip 1 6 of, saidspring end'7 that is connected t'o the chassis 8 or tothe end 9, of the upper half elliptic spring.

The shacklesmay be of any desired con- 'struction and are 'shown as pairs of rigid 'swinging links pivotally connected at'their ends with the parts to be `connected.

- In Fig- 4a body vhaving a spring member,

l'in the forjm 'of aquarte'r elliptic spring 17 i5 "i lQ'isconnectedwftherewith by-a bearing 13.A "In liigsl and 7 the spring 18 is provided bumper 14 in Fig. 1,

at its end witha bearing pin 13 for 'pivotal connection With-the shackle'lO.

" #under strain or pressure comes upbagainst thus introducing into. 1'

Inpractical use When 'the resilient arm .2"

faction' a shorter lever between the bumper limb 2 engags. the

the 'fuloruming spring end 3', and when he-resiliencyjof this part of the @lever is intof'play.'

ssurev or weight -on lthetoplthe lcase on.

'until it l engages the bumper; and afterl' the bumper and before the car' 'can compress the-springs further, it is y and in doingsofthe lever has'a tendency to i elevate the arm 4 ofv thespring so. that the 'full strength lof .the spring is broughtinto play.

' Theoperation of '.the'f spring is vapparent from the foregoing description andis practically ,theV same withall the lforms sho-wn.

An adjust` provided for the lever spring in each 'of these cases. Said 'flurn'pers' comprise bolts a. and rubber sleeves `i?) thiereforforming stops` said: bolts being" supported .by hangers@ which are similarly provided with -a plurality of boltholes d,-

56 "that by adjusting the bltS a 01' either of toa higher or lower level various'efffeatsy may -be produced upon the spring lever the bump- '25,? vsaid lever being 'intercepted by ets' at an earlier or later stagein compres- -sion'of' thefsp'ring. Said 'bolts may be covered' with 'rubber or other suitable material to prevent noise and may 'be adjusted relatively, toward and from eachother and to jv'arious places up and dovvnthe hangers.

preferably placed in The lower bumper is surface of the lever contact with the under spring when the car By having .the-

of a full" elliptic spring or ef'body ofthe 1 car in thecase of a 4faltl'or"three-oliunters..elliptic spring,

causes. the lever -to bow upward necessary forthe arm 2 Vto straighten gout ble arrangement of bumpers is .shown in Figs. 1, 2, 4 and 6, there being'anupper and lower bumper Vis resting and unloaded.` bumpers adustable as ction shown it is possible to get as rnucl1" "4 of the 'levers as one Wishes tinues in action withincreasing.resistance as the longarm. 5 contacts with the upper bumper, but when the rebounds the lower bumpercontacts with the lever'and the lever yis thereby :pulled up as will be readilyunder-stood, thereby resistingtheupthrow, and

-arm will be forced ,c lownward,- in this Way j tending to lower the car body,vthu's' 'compenf' sating'jfor the upthrow; spring compresses until the upper bumper 'engages the: lever vanyfurther compression lever and at..the Sametime raise vthe -outer and compensating for furtherl downward action.'y j

i willbe 4left-between the lower bumper and crumed between'the supporting and the slip-l elliptic 'spring the duplex bumper contacts with the lever spring at parts -of '.arating movements of 'the supporting and:

the supported'body'and thatleverage 'and 'action-in both directions to joppose suchexftrememovements. -i

' 1. The combination with. ahalf'- elliptic spring, of a'lever spring fulcrumed toene a-short and a long arm; the long arm being 'longarm with the other 'end offthehalf secondl half elliptic' Spring.v

spring, end of a short and a. longjartn; the long'arm' being another-half elliptic half elliptic. spring;

of the second half el iptic spring, and a vat `the vsame timefthe outer end of the short end ofthe short amm in thiswayresisting ,#'In constructing the-.spring enoughirooin* the approaching fand s epl resilient action are effective at theentreme movementsory `reverse limi-ts' of. the 'spr1ng' end of theV halfV elliptic. spring; and having resilient; a shackle connecting -thefendbf the Y elliptic spring;A a second h'al'f elliptic-springiconnected at one end with the' same end o f the half elliptic spring as 'the resilient arm. and -a shackle 1 connecting the short arm of: -the lever' spring vvvitlrthe otherjend O fjthe springconnected at one end with the''sanie .end of the-rstthalf elliptic spring as the resilient armga shackle'conne'oting' the short g .arm o'fith'e 'lever .spn with 'fhemtlier-ondl In action when the axle .rises-and the spring compresses, the lever sprmgleave the lower bumper and begins to act 'and con"- will tend to 4depress thev longparm of the 2. The "combination with; a' tali elliptic of a le ver spring fulcrumecl to one' the half elliptic springand having body.

vertically adjustable bumper to contact vvith -the resilient arm of the lever spring.

a short and a long arm; the long arm beingA resilient; a shackle connecting the end of thelong arm with the other end of the half elliptic spring; a supported lbody connected at one end With the same end of .the half elliptic spring as the resilient arm, and a shackle connecting the short arm of the lever spring with said supported body.

v4f. The combination with a half elliptic spring, of a lever spring fulcrumed to one end of the halfelliptic spring, and having a short andalong arm; the long arm being resilient; a shackle connecting the end of the long arm with the other end of the half elliptic spring; a supported body having a spring member connected at one end with the same. end of the half elliptic spring as the resilient arm, and a shackle connecting the short arm of the lever spring with the spring member of said supported 5." The combination Vwith a. half-elliptic spring, of a supported body above such spring, a lever spring fulcrumed between the halfelliptic spring and the supported body to resist approachand separation of said half-elliptic spring and said supported body, and a duplex bumper for contact with the lever spring at parts of the approaching and separating movements of the supported body and half-elliptic spring and means to `adjust the bumper to limit said movements.

6. The combinationwith a half elliptic spring, of a. lever spring fulcrumed to one end ot' the half elliptic spring, and having a short and a long arm; the long arm being resilient; shackle connecting the end of the long arm with the other end of the half elliptic spring; asecond half elliptic spring connected at one end with the saineend of the half elliptic spring as the resilient arm, a shackle connecting the short arm of the lever spring with the other end of the second half elliptic spring, and a duplex bumper to Contact with the long arm at reserve limits of the spring action.

7. The combination with a half elliptic spring, oi' a lever spring ulcrumed to one end ot the half elliptic spring, and having a short and a long arm; the long arm being resilient; a. shackle connecting the end of the long arm with the other end of the half elliptic spring; a supported body connected at one end with theA same end of the half elliptic spring 4as the resilient arm; a.

shackle 'connecting the short arm of the lever spring with said supportedbody, and a duplex bumper having an upper and a lower stop to limit the movement of. the long arm in both directions.

8. The combination with a half elliptic spring, oi a lever spring fulcrumed to one end of the half elliptic spring and having a' resilient arm; a. shackle connecting/.the end of the resilient arm with thefother end of the half elliptic spring. a supported body connected at one end with the same end of the half elliptic spring is the resilient arm, a shackle connecting the other arm of the lever spring With said supported body, and a duplex bumper having an upper stop and; a lower stop to alternately' contact With the resilient-arm When the arm bends upward and downward respectively.

9. The combination with two spaced apart bodies and a lever spring attached to one of said bodies and fulcrumed to the other body, of adjustably mounted stops above and belovv7 the spring lever respectively adapted to alternately contact the spring lever when said bodies are moved toward and from one another.

l0. The combination With 4tvvo bodies and a lever spring to hold them` apart, of two hangers provided with holes and fastened to one of said bodies; said lever spring being between the hangers, and bolts adjustable toward and from each other in the holes on -opposite sides of the lever spring.

11. The combination with two bodies and a lever spring to hold them apart, of two hangers provided with holes and fastened to one of said bodies; said lever spring being between the hangers, bolts relatively adjustable in the holes on opposite sides of the lever spring,- and resilient sleeves around the bolts.

In testimony whereof, we have hereunto set our hands at Cambria, California, this 13th day of September 1911.

PERCIVAL L. ROKLEDGE. Gr. W. GILLESPIE.

-In presence of- G. C. GISIN, WM. LEFFINGWELL.

Images